National Meteorological Library and Archive Fact sheet No. 1 – Clouds

Transcription

National Meteorological Library and Archive Fact sheet No. 1 – Clouds
National Meteorological Library
and Archive
Fact sheet No. 1 – Clouds
Introduction
A cloud is an aggregate of very small water droplets, ice crystals, or a mixture of both, with
its base above the Earth’s surface. With the exception of certain rare types (nacreous and
noctilucent) and the occasional occurrence of cirrus in the lower stratosphere, clouds are
confined to the troposphere. They are formed mainly as the result of vertical motion of air,
as in convection, or in forced ascent over high ground, or in the large-scale vertical motion
associated with depressions and fronts.
The nature of clouds
The classification of clouds is based upon that
originated by Luke Howard (1772-1864), a
London pharmacist and amateur meteorologist.
In 1803 Howard, wrote a book called The
Modifications of Clouds and named the various
cloud structures he had studied. He used the
word hair to describe cirrus, heap for cumulus,
layer for stratus and rain-bearing for nimbus. He
illustrated it with a series of engravings depicting
the main cloud types that he named. Later he
added ‘alto’ and ‘fracto’, meaning middle and
broken. The terms were readily accepted by the
meteorological community and are still used
across the world today.
The details of a more precise classification
occupied the attention of meteorologists in many
countries during the latter part of the nineteenth
century. A classification was agreed at the
International Meteorological Conference in
Munich in 1891, and in 1896 the first edition of
the International Cloud Atlas appeared.
© K.E.Woodley
Figure 1. Luke Howard (1772 - 1864).
An International Commission for the Study of Clouds was set up in 1921 and produced the
International Atlas of Clouds and of Types of Skies in 1932, preceded by an abridged
edition in 1930 for use of observers to meet the requirements of coding changes. New
editions of both publications followed in 1939.
A new International Cloud Atlas was published in two volumes in 1956 by the World
Meteorological Organization (WMO).
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Fact sheet No. 1: Clouds
Below are examples of some of the illustrations depicted in Luke Howard’s book entitled
The Modification of Clouds.
Figure 2. Forms assumed by clouds when gathering
for a thunderstorm.
Figure 3. Cumulostratus forming, fine weather cirrus
above.
Figure 4. Stratus or ground fog.
Figure 5. Cumulus breaking up, cirrus and
cirrocumulus above.
Figure 6. Cumulostratus as produced by the
inosculation of cumulus with cirrostratus. Cirrus
above, passing to cirrocumulus.
Figure 7. Nimbus or rain cloud.
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Fact sheet No. 1: Clouds
How clouds form
A cloud is defined as 'a visible aggregate of minute droplets of water or particles of ice or a
mixture of both floating in the free air'. Each droplet has a diameter of about a hundredth of
a millimetre and each cubic metre of air will contain 100 million droplets. Because the
droplets are so small, they can remain in liquid form in temperatures of -30°C. If so, they
are called supercooled droplets.
Clouds at higher and extremely cold levels in the atmosphere are composed of ice crystals
— these can be about a tenth of a millimetre long.
Clouds form when the invisible water vapour in the air condenses into visible water droplets
or ice crystals. For this to happen, the parcel of air must be saturated, i.e. unable to hold all
the water it contains in vapour form, so it starts to condense into a liquid or solid form.
There are two ways by which saturation is reached.
a) By increasing the water content in the air, e.g. through evaporation, to a point where the
air can hold no more.
b) By cooling the air so that it reaches its dew point — this is the temperature at which
condensation occurs, and is unable to 'hold' any more water. Figure 8 shows how there
is a maximum amount of water vapour the air, at a given temperature, can hold. In
general, the warmer the air, the more water vapour it can hold. Therefore, reducing its
temperature decreases its ability to hold water vapour so that condensation occurs.
Vapour Pressure (e)
Evaporation Curve
Melting Curve
6.11 hPa
Saturated with respect to
ice but close to
saturation with respect to
water
Sublimation Curve
0°C
Temperature (T)
Figure 8. There is a maximum amount of water vapour the air, at a given temperature, can hold.
Method (b) is the usual way that clouds are produced, and it is associated with air rising in
the lower part of the atmosphere. As the air rises it expands due to lower atmospheric
pressure, and the energy used in expansion causes the air to cool. Generally speaking, for
each 100 metres which the air rises, it will cool by 1°C, as shown in Figure 9. The rate of
cooling will vary depending on the water content, or humidity, of the air. Moist parcels of air
may cool more slowly, at a rate of 0.5°C per 100 metres.
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Fact sheet No. 1: Clouds
Height
Air continuing to rise. Now
cooling at approximately 0.5°C
per 100 metres
Saturation Point
Air rising and cooling at
approximately 1°C per 100
metres
Temperature
Figure 9. Temperature profile of a parcel of air as it rises through the atmosphere.
Therefore, the vertical ascent of air will reduce its ability to hold water vapour, so that
condensation occurs. The height at which dew point is reached and clouds form is called
the condensation level.
There are five factors which can lead to air rising and cooling:
•
Surface heating – The ground is heated by the sun which heats the air in contact with it
causing it to rise. The rising columns are often called thermals.
•
Topography – Air forced to rise over a barrier of mountains or hills. This is known as
orographic uplift.
•
Frontal – A mass of warm air rising up over a mass of cold, dense air. The boundary is
called a 'front'.
•
Convergence – Streams of air flowing from different directions are forced to rise where
they meet.
•
Turbulence – A sudden change in wind speed with height creating turbulent eddies in
the air.
The first of these tends to produce cumulus-type clouds, whereas the next two usually
produce layered clouds. The last two can produce either cumulus-type cloud or layered
cloud depending upon the state of the atmosphere. The range of ways in which clouds can
be formed and the variable nature of the atmosphere give rise to the enormous variety of
shapes, sizes and textures of clouds.
Another important factor to consider is that water vapour needs something to condense
onto. Floating in the air are millions of minute salt, dust and smoke particles known as
condensation nuclei which enable condensation to take place when the air is just
saturated.
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Fact sheet No. 1: Clouds
Cloud heights
Observations have shown that cloud levels (with the exception of nacreous and noctilucent
clouds) vary over a range of altitudes from near sea level to perhaps 18 kilometres (60 000
feet) in the tropics, 14 kilometres (45 000 feet) in middle latitudes, and 8 kilometres (25 000
feet) in polar regions.
By convention, the vertical extent of the atmosphere in which clouds are usually present is
divided into three layers: high, medium and low. Each layer is defined by a range of
altitudes between which clouds of certain types occur most frequently. The layers overlap
and the approximate limits vary with the latitude as shown in the table below. Some clouds
usually have their bases in the low level but may reach into the medium or high levels.
Level
Polar regions
Temperate regions
Tropical regions
High
3 to 8 km
(10 000 to 25 000 feet)
5 to 14 km
(16 500 to 45 000 feet)
6 to 18 km
(20 000 to 60 000 feet)
Medium
2 to 4 km
(6 500 to 13 000 feet)
2 to 7 km
(6 500 to 23 000 feet)
2 to 8 km
(6 500 to 25 000 feet)
Low
From the Earth’s
surface to 2 km
(6 500 feet)
From the Earth’s
surface to 2 km
(6 500 feet)
From the Earth’s
surface to 2 km
(6 500 feet)
When the height of the base of a particular cloud is known, the use of levels may assist the
observer to identify the cloud.
Heights of the base of cloud genera above ground level in the British Isles.
Cloud
genera
•
•
•
•
Low
Stratus
Stratocumulus
Cumulus
Cumulonimbus
Medium
• Nimbostratus
• Altostratus
• Altocumulus
High
• Cirrus
• Cirrostratus
• Cirrocumulus
© Crown Copyright
Updated: July 2007
Usual range of height of base
Wider range of height of base
sometimes observed, and other
remarks
metres
feet
metres
feet
Surface to 600
300 to 1 350
300 to 1 500
600 to 1 500
Surface to 2 000
1 000 to 4 500
1 000 to 5 000
2 000 to 5 000
Surface to 1 200
300 to 2 000
300 to 2 000
300 to 2 000
Surface to 4 000
1 000 to 6 500
1 000 to 6 500
1 000 to 6 500
kilometres
feet
Surface to 3
2 to 6
2 to 6
Surface to 10 000
6 500 to 20 000
6 500 to 20 000
kilometres
feet
6 to 12
20 000 to 40 000
Nimbostratus is considered a medium
cloud for synoptic purposes, although it
can extend to other levels.
Altostratus may thicken with progressive
lowering of the base to become
nimbostratus
Cirrus from dissipating cumulonimbus
may occur well below 6 km (20 000 feet)
in winter.
Cirrostratus may develop into altostratus
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Fact sheet No. 1: Clouds
Classification of clouds
Following the International Cloud Atlas, the cloud forms are classified in terms of ‘genera’,
‘species’ and ‘varieties’. A description of these terms follows, with an explanation of the
subdivisions which can be used to define a particular cloud formation in more detail.
Genera
Cloud forms are divided into 10 main groups, called genera. A given cloud belongs to only
one genus. The genera, together with their accepted form of abbreviation, are:
High
Medium
Low
Cirrus (Ci)
Cirrocumulus (Cc)
Cirrostratus (Cs)
Altocumulus (Ac)
Altostratus (As)
Nimbostratus (Ns)
(Nimbostratus extends to
other levels)
Stratus (St)
Stratocumulus (Sc)
Cumulus (Cu)
Cumulonimbus (Cb)
Species
Peculiarities in the shape of clouds and differences in their internal structure have led to the
subdivision of most of the cloud genera into species. Altostratus and nimbostratus are the
only genera which are not so divided.
The full list of cloud species are:
Fractus (fra) – clouds in the form of irregular and ragged shreds. This term applies only to
stratus and cumulus clouds.
Nebulosus (neb) – a cloud like a nebulous veil or layer, showing no distinct details. This
term applied mainly to stratus and cirrostratus clouds.
Stratiformis (str) – clouds spread out in an extensive horizontal sheet or layer. This term
applies to stratocumulus, altocumulus and, occasionally, cirrocumulus clouds.
Lenticularis (len) – clouds having the shape of a lens or almond, often very elongated and
usually with well-defined outlines; they occasionally show irisation (iridescence). Such
clouds appear most often in cloud formations of orographic origin, but may also occur in
regions without marked orography. This term applies mainly to stratocumulus, altocumulus
and cirrocumulus clouds.
Castellanus (cas) – clouds which present, in at least some portion of their upper part,
cumuliform protuberances in the form of turrets which generally give the clouds a
crenellated appearance. The turrets, some of which are taller than they are wide, may be
connected by a common base and seem to be arranged in lines. The castellanus character
is especially evident when clouds are seen from a distance. This term applies to
stratocumulus, altocumulus, cirrus and cirrocumulus clouds.
Humilis (hum) – clouds of only slight vertical extent; they generally appear flattened. This
term only applies to cumulus cloud.
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Mediocris (med) – clouds of moderate vertical extent, the tops of which show fairly small
protuberances. This term only applies to cumulus cloud.
Congestus (con) – clouds which are markedly sprouting and are often of great vertical
extent; their bulging upper part frequently resembles a cauliflower. This term only applies to
cumulus cloud.
Calvus (cal) – clouds in which at least some of the protuberances of the upper part are
beginning to lose their cumuliform outlines but in which no cirriform parts can be
distinguished. Protuberances and sprouts tend to form a whitish mass with more or less
vertical striations. This term only applies to cumulonimbus cloud.
Capillatus (cap) – clouds characterized by the presence, mostly in its upper portion, of
distinct cirriform parts of clearly fibrous or striated structure, frequently having the form of an
anvil, a plume or a vast, more or less disorderly, mass of hair. This term only applies to
cumulonimbus cloud.
Floccus (flo) – A species in which each cloud unit is a small tuft with a cumuliform
appearance, the lower part of which is more or less ragged and often accompanied by
virga. This term applies to altocumulus, cirrus and cirrocumulus clouds.
Fibratus (fib) – Detached clouds or a thin cloud veil, consisting of nearly straight or more or
less irregular curved filaments which do not terminate in hooks or tufts. This term applies
mainly to cirrus and cirrocumulus clouds.
Spissatus (spi) – clouds of sufficient optical thickness to appear greyish when viewed
towards the sun. This term only applies to cirrus cloud.
Uncinus (unc) - clouds often shaped like a comma, terminating at the top in a hook, or in a
tuft whose upper part is not in the form of a rounded protuberance. This term only applies to
cirrus cloud.
Varieties
Special features in appearance and degree of transparency of clouds have led to the
concept of varieties. For example, a cloud with a definite wave characteristic would be
termed ‘undulatus’ as in undulating.
The full list of cloud varieties are:
Duplicatus (du) – Superposed cloud patches, sheets or layers at slightly different levels,
sometimes partly merged. This term applies mainly to stratocumulus, altocumulus,
altostratus, cirrus and cirrocumulus clouds.
Intortus (in) – clouds in which the filaments are very irregularly curved and often seemingly
entangled in a capricious manner. This term only applies to cirrus cloud.
Lacunosus (la) – Cloud patches, sheets or layers, usually rather thin marked by more or
less regular distributed round holes, many of them with fringed edges. Cloud elements and
clear spaces are often arranged in a manner suggesting a net or a honeycomb. This term
applies mainly to altocumulus and cirrocumulus, and on rare occasions to stratocumulus
clouds.
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Fact sheet No. 1: Clouds
Radiatus (ra) – Clouds showing broad parallel bands or arranged in parallel bands which,
owing to the effect of perspective, seem to converge towards a point on the horizon or,
when in bands cross the whole sky, towards two opposite points on the horizon, called
‘radiation point(s)’. This term applies mainly to stratocumulus, cumulus, altocumulus,
altostratus and cirrus clouds.
Vertebratus (ve) – Clouds whose filaments are arranged in a manner suggestive of
vertebrae, ribs or a fish skeleton. This term applies mainly to cirrus cloud.
Opacus (op) – An extensive cloud patch, sheet or layer, the greater part of which is
sufficiently opaque to mask the sun or moon completely. This term applies to stratus,
stratocumulus, altostratus and altocumulus clouds.
Cumulogenitus (cugen) – Clouds formed by the spreading out of cumulus. This term
applies to stratocumulus and altocumulus clouds.
Perlucidus (pe) – An extensive cloud patch, sheet or layer, with distinct but sometimes
very small spaces between the elements. The spaces allow the sun, the moon, the blue of
the sky or overlying clouds to be seen. The variety perlucidus may be observed in
combination with the translucidus or opacus. This term applies to stratocumulus and
altocumulus clouds.
Translucidus (tr) – Clouds in an extensive patch, sheet or layer, the greater parts of which
is sufficiently translucent to reveal the position of the sun or moon. This term applies to
stratus, stratocumulus, altostratus and altocumulus clouds.
Undulatus (un) – Clouds in patches, sheets or layers, showing undulations. These
undulations may be observed in fairly uniform cloud layers or in clouds composed of
elements, separate or merged.
Examples of cloud types
Low cloud
(Genera: stratus, stratocumulus, cumulus and cumulonimbus)
Stratus
(Latin: stratus – flattened or spread out)
Generally grey cloud layer with a fairly uniform base, which may give drizzle, snow or snow
grains. When the sun is visible through the cloud its outline is clearly discernable. Stratus
does not produce halo phenomena except possible at very low temperatures. Sometimes
stratus appears in the form of ragged patches.
Stratus may develop from stratocumulus when the cloud base of the latter becomes lower
or loses its relief or apparent subdivisions. The lifting of a fog layer due to warming or an
increase in the wind speed is another common mode of formation. During the formation or
dissipation it can appear as more or less joined fragments with varying luminance as stratus
fractus but this stage is usually fairly short. It is usually composed of small water droplets
and, if the cloud is thin, these can give rise to a corona.
Examples of stratus (genera and species) are:
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Fact sheet No. 1: Clouds
•
•
Stratus nebulosus
Stratus fractus
© R. K. Pilsbury
© J. A. Walton
Figure 10. Stratus nebulosus.
Figure 11. Stratus fractus.
Stratocumulus (Sc)
(Latin: stratus – flattened; cumulus – heap)
Grey or whitish, or both grey and whitish, patch, sheet or layer of cloud which almost
always has dark parts, composed of tessellations, rounded masses, rolls, etc. which are
non-fibrous (except for virga) and which may or may not be merged; most of the regular
arranged small elements have an apparent width of more than 5°. (If a centimetre rule is
held at arm’s length, each centimetre will approximate to 1°.)
Stratocumulus may sometimes be confused with altocumulus. If most of the regular
arranged elements, when observed at an angle of more than 30° above the horizon, have
an apparent width of more than 5°, the cloud is stratocumulus. Generally stratocumulus is
composed of water droplets and, when it is not very thick, a corona or irisation is sometimes
seen. However, in very cold weather, it may produce abundant ice-crystal virga.
Examples of stratocumulus (genera and species) are:
•
•
•
•
Stratocumulus cumulogenitus
Stratocumulus castellanus
Stratocumulus lenticularis
Stratocumulus stratiformis
© J.F.P. Galvin
Figure 12. Stratocumulus cumulogenitus.
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Updated: July 2007
© R.M. Blackall
Figure 13. Stratocumulus castellanus.
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Fact sheet No. 1: Clouds
© S.D. Burt
Figure 14. Stratocumulus lenticularis.
© J. Corey
Figure 15. Stratocumulus stratiformis.
Cumulus (Cu)
(Latin: cumulus – heap)
Detached clouds, generally dense and with sharp outlines, developing vertically in the form
of rising mounds, domes or towers, of which the bulging upper part often resembles a
cauliflower. The sunlit parts of these clouds are mostly brilliant white; their base is relatively
dark and nearly horizontal. Sometimes cumulus is ragged.
Cumulus clouds are detached although, when viewed from a distance, they map appear to
have merged owing to the effect of perspective. Owing to their generally great vertical
extent, cumulus may spread out and form stratocumulus or altocumulus cumulogenitus or,
alternatively, penetrate existing layers of altocumulus or stratocumulus. Providing the
cumuliform cloud remain detached from one another, they are still called cumulus. It can
sometimes happen that a very large precipitating cumulus directly above an observer will
exhibit none of the features normally associated with this genus, and it may be confused
with altostratus or nimbostratus.
Examples of cumulus (genera and species) are:
•
•
•
•
Cumulus fractus
Cumulus humilis
Cumulus mediocris
Cumulus congestus
© Crown
Figure 16. Cumulus fractus.
© Crown Copyright
Updated: July 2007
© S. Jebson
Figure 17. Cumulus humilis.
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Fact sheet No. 1: Clouds
© R.K. Pilsbury
Figure 18. Cumulus mediocris.
© S. Jebson
Figure 19. Cumulus congestus.
Cumulonimbus (Cb)
(Latin: cumulus – heap; nimbus – rainy cloud)
Heavy and dense cloud, of considerable vertical extent, in the form of a mountain or huge
towers. At least part of its upper portion is usually smooth, or fibrous or striated, and nearly
always flattened; this part often spreads out in the shape of an anvil or vast plume. Under
the base of this cloud, which is often very dark, there are frequently low ragged clouds
either merged with it or not, and precipitation sometimes in the form of virga.
Cumulonimbus clouds normally develop from large cumulus but they can also do so from
stratocumulus castellanus or altocumulus castellanus. When they cover a large expanse of
sky the under surface can present the appearance of nimbostratus. The character of the
precipitation may be of assistance in identifying the cloud. Cumulonimbus gives showers,
very often quite heavy for comparatively short periods of time. If hail, thunder or lightning
are observed then, by convention, the cloud is cumulonimbus. The evolution of the cloud
can also aid identification. The change from large cumulus with domed tops and a hard
outline (produced by water drops) to a top with a softer fibrous outline (produced by ice
crystals) marks the change from cumulus to cumulonimbus.
This genus can be described as a ‘cloud factory’; it may produce extensive thick patches of
cirrus spissatus, altocumulus, altostratus or stratocumulus by the spreading out of its upper
portions. The spreading of the highest part usually leads to the formation of an anvil; if the
wind increases with height, the upper portion of the cloud is carried downwind in the shape
of a half anvil or vast plume.
Examples of cumulonimbus (genera and species) are:
•
•
Cumulonimbus calvus
Cumulonimbus capillatus
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© R.Coulam
Figure 20. Cumulonimbus calvus.
© M.J.O. Dutton
Figure 21. Cumulonimbus capillatus.
Medium Cloud
(Genera: Altostratus, Altocumulus and Nimbostratus)
Altostratus (As)
(Latin: altum – height; stratus – flattened or spread out)
Greyish or bluish cloud sheet or layer of striated, fibrous or uniform appearance, totally or
partly covering the sky, and having parts thin enough to reveal the sun at least vaguely, as
if through ground glass. Altostratus does not show halo phenomena.
Altostratus prevents objects on the ground from casting shadows. If the presence of the sun
or moon can be detected, this indicates altostratus rather than nimbostratus. The former
has a less uniform base. If it is very thick and dark, differences in thickness may cause
relatively light patches between different parts, but the surface never shows real relief, and
the striated or fibrous structure is always seen in the body of the cloud. At night, if there is
any doubt as to whether it is altostratus or nimbostratus when no rain or snow is falling,
then, by convention, it is called altostratus. Altostratus is never white, as thin stratus may be
when viewed more or less towards the sun.
Examples of altostratus (genera and varieties – no species exist for altostratus) are:
•
•
Altostratus translucidus
Altostratus opacus
© R.Ham
Figure 22. Altostratus translucidous.
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Updated: July 2007
© R.K. Pilsbury
Figure 23. Altostratus opacus.
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Nimbostratus (Ns)
(Latin: nimbus – rainy cloud; stratus – flattened or spread out)
Grey cloud layer, often dark, the appearance of which is rendered diffuse by more or less
continuously falling rain or snow which, in most cases, reaches the ground. It is thick
enough throughout to blot out the sun. Low ragged clouds frequently occur below the layer,
with which they may or may not merge.
Nimbostratus generally forms from thickening altostratus or when a well developed
cumulonimbus thickens and spreads out. Note that if hail, thunder or lightning are produced
by the cloud it is called cumulonimbus. Nimbostratus is a thick dense cloud and can be
distinguished from thick stratus by the type of precipitation it produces. It is also generally
an extensive cloud, the base of which can be partially or totally hidden by ragged clouds
(pannas), and care must be taken not to confuse these with the base of the nimbostratus
Example of nimbostratus (genera – no species or varieties exist for nimbostratus) is:
•
Nimbostratus
© F. Pouncy
Figure 24. Nimbostratus.
Altocumulus (Ac)
(Latin: altum – height; cumulus – heap)
White or grey, or both white and grey, patch, sheet or layer of cloud, generally with shading,
and composed of laminae, rounded masses, rolls, etc. which are sometimes partly fibrous
or diffuse and which may or may not be merged; most of the regularly arranged small
elements usually have an apparent width of between 1 and 5°.
This genus can be confused with cirrocumulus and stratocumulus. If the cloud elements
exhibit any shading, the cloud is altocumulus not cirrocumulus even if the elements have an
apparent width of less the 1°. Clouds without shading are altocumulus if most of the
regularly arranged elements, when observed at more than 30° above the horizon, have an
apparent width of 1 to 5°. (Under similar conditions of observation, stratocumulus elements
will have an apparent width of over 5°.) Altocumulus sometimes produces descending trails
of fibrous appearance (virga), and coronae and irisation are often observed in thin parts of
the cloud.
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Fact sheet No. 1: Clouds
Examples of altocumulus (genera and species) are:
•
•
•
•
•
Altocumulus stratiformis
Altocumulus lenticularis
Altocumulus castellanus
Altocumulus floccus
Altocumulus cumulogenitus
© C.S. Broomfield
Figure 25. Altocumulus stratiformis.
© S. Jebson
Figure 26. Altocumulus stratiformis.
© S. Jebson
Figure 27. Altocumulus lenticularis.
© C.S. Broomfield
Figure 28. Altocumulus castellanus.
© R.K. Pilsbury
Figure 29. Altocumulus floccus.
© Crown Copyright
Updated: July 2007
© R.K. Pilsbury
Figure 30. Altocumulus cumulogenitus.
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High Cloud
(Genera: Cirrostratus, Cirrocumulus and Cirrus)
Cirrostratus (Cs)
(Latin: cirrus – lock or tuft of hair; stratus – flattened or spread out)
Transparent whitish cloud veil of fibrous or smooth appearance, totally or partly covering
the sky, and generally producing halo phenomena.
This cloud usually forms a veil of great horizontal extent, without structure and of a diffuse
general appearance. It is composed almost entirely of ice crystals and can be so thin that
the presence of a halo may be the only indication of its existence. Its apparent motion is
slow, as are changes in its appearance and thickness. Cirrostratus, when not covering the
whole sky, may have a clear-cut edge but more often it is fringed with cirrus. A veil of haze
may sometimes have the appearance of cirrostratus but the haze veil is opalescent or has a
dirty yellowish or brownish colour. Shadows will normally continue to be cast when the sun
is shining through cirrostratus, at least when the sun is high; when the sun is less than
about 30° above the horizon the relatively longer path through the cirrostratus veil may
reduce the light intensity so much that shadows do not form.
Examples of cirrostratus (genera and species) are:
•
•
Cirrostratus nebulosus
Cirrostratus fibratus
© R.K. Pilsbury
Figure 31. Cirrostratus nebulosus.
© R.W. Mason
Figure 32. Cirrostratus fibratus.
Cirrocumulus (Cc)
(Latin: cirrus – lock or tuft of hair; cumulus – heap)
This white patch, sheet or layer of cloud without shading, composed of very small elements
in the form of grains, ripples, etc. merged or separate, and more or less regularly arranged;
most of the elements have an apparent width of less than 1°.
This cloud often forms as a result of the transformation of cirrus or cirrostratus. It is rippled
and subdivided into very small cloudlets without any shading. It is composed almost
exclusively of ice crystals and can include parts which are fibrous or silky in appearance but
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Fact sheet No. 1: Clouds
these do not collectively en a layer of altocumulus is dispersing that the small elements on
the edge of the sheet are not confused with cirrocumulus.
Examples of cirrocumulus (genera and species) are:
•
•
•
Cirrocumulus stratiformis
Cirrocumulus floccus
Cirrocumulus lenticularis
© Crown
Figure 33. Cirrocumulus stratiformis.
© J.F.P. Galvin
© Crown
Figure 34. Cirrocumulus lenticularis.
Figure 35. Cirrocumulus floccus.
Cirrus (Ci)
(Latin: cirrus – lock or tuft of hair)
Detached clouds in the form of white delicate filaments, or white or mostly white patches or
narrow bands. These clouds have a fibrous (hair-like) appearance, or a silky sheen, or both.
Cirrus is whiter than any other cloud in the same part of the sky. With the sun on the
horizon, it remains white whilst other clouds are tinted yellow or orange, but as the sun
sinks below the horizon the cirrus takes on these colours too and the lower clouds become
dark or grey. The reverse is true at dawn when the cirrus is the first to show colouration. It is
of a mainly fibrous or silky appearance with no cloud elements, grains or ripples which
distinguishes it from cirrocumulus. Cirrus is of a discontinuous structure and of limited
horizontal extent which is the distinction between it and cirrostratus. Dense cirrus patches
or tufts of cirrus may contain ice crystals large enough to fall to give trails of some vertical
extent. If these crystals melt they appear greyish.
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Examples of cirrus (genera and species) are:
•
•
•
•
•
Cirrus uncinus
Cirrus fibratus
Cirrus spissatus
Cirrus floccus
Cirrus castellanus
© W.G. Pendleton
Figure 36. Cirrus uncinus.
© R.K. Pilsbury
Figure 37. Cirrus fibratus.
© S.D. Burt
Figure 38. Cirrus spissatus.
© C.S. Broomfield
Figure 39. Cirrus floccus.
© J.F.P. Galvin
Figure 40. Cirrus castellanus.
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Supplementary features and accessory clouds
The indication of genus, species and variety is not always sufficient to describe the cloud
completely. The cloud may sometimes have supplementary features or may be
accompanied by other, usually smaller, clouds which are known as accessory clouds and
which may be separate or partly merged with the main cloud. Supplementary features and
accessory clouds may occur at any level of the cloud, above it or below it. One or more
supplementary features or accessory clouds may occur simultaneously with the same
cloud.
Definitions of the supplementary features are:
Virga
(Latin: virga – rod)
Vertical or inclined trails of precipitation (fallstreaks), attached to the under surface of a
cloud, which do not reach the Earth’s surface. This supplementary feature occurs mostly
with stratocumulus, cumulus, cumulonimbus, altostratus, altocumulus, nimbostratus and
cirrocumulus.
Mamma
(Latin: mamma – udder)
Hanging protuberances, like udders, on the under surface of a cloud. This supplementary
feature occurs mostly with stratocumulus and cumulonimbus.
Praecipitatio
(Latin: praecipitatio – fall)
Precipitation (rain, drizzle, snow, hail, etc) falling from a cloud and reaching the Earth’s
surface. (Although precipitation is normally considered a hydrometeor, it is treated here as
a supplementary feature because it appears an as extension of the cloud.) This
supplementary feature is mostly encountered with stratus, stratocumulus, cumulus,
cumulonimbus, altostratus and nimbostratus.
Arcus
(Latin: arcus – arch)
A dense horizontal roll, with more or less tattered edges, situated on the lower front part of
certain clouds and having, when extensive, the appearance of a dark menacing arch. This
supplementary feature occurs with cumulonimbus and, less often, with cumulus.
Incus
(Latin: incus – anvil)
The upper portion of a cumulonimbus spread out in the shape of an anvil, with a smooth
fibrous or striated appearance.
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Tuba
(Latin: tuba – trumpet)
Cloud column or inverted cloud cone (funnel cloud) protruding from a cloud base; it
constitutes the cloudy manifestation of a more or less intense vortex. This supplementary
feature occurs with cumulonimbus and, less often, with cumulus. The diameter of the cloud
column, which is normally of the order of 10 metres, may in certain regions occasionally
reach some hundreds of metres.
© Crown
Figure 41. Virga.
© M.R. Welch
Figure 42. Mamma.
© F. Pouncy
Figure 43. Praecipitatio.
© R.Coulam
Figure 44. Arcus.
© J.W. Warwicker
Figure 45. Incus.
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© R.Coulam
Figure 46. Tuba.
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Definitions of accessory clouds are:
Pannus
(Latin: pannus – shred)
Ragged shreds, sometimes constituting a continuous layer, situated below another cloud
and sometimes attached to it. This accessory cloud occurs mostly with cumulus,
cumulonimbus, altostratus and nimbostratus.
Pileus
(Latin: pileus – cap)
An accessory cloud of small horizontal extent in the form of a cap or hood above the top, or
attached to the upper part, of a cumuliform cloud which often penetrates it. Pileus clouds
may sometimes be observed one above the other. Pileus occurs principally with cumulus
and cumulonimbus.
Velum
(Latin: velum – sail of ship)
An accessory cloud veil of great horizontal extent, close above or attached to the upper part
of one or several cumuliform clouds which often pierce it. Velum occurs principally with
cumulus and cumulonimbus.
© R. Ham
Figure 47. Pannus.
© S.D. Burt
Figure 48. Pileus.
© S.D. Burt
Figure 49. Velum.
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Fact sheet No. 1: Clouds
Aid to cloud identification
If, especially during the hours of darkness, an observer has difficulty in identifying the cloud
types following the onset of precipitation, the table below can be used as a guide to the
cloud types which may be present from the nature of the precipitation.
Precipitation
Rain
Drizzle
Snow
Snow Pellets
Hail
Small Hail
Ice Pellets
Snow Grains
As
∗
Ns
∗
∗
∗
∗
∗
Cloud Type
Sc
St
∗
∗
∗
∗
∗
Cu*
∗
Cb*
∗
∗
∗
∗
∗
∗
∗
∗
*Showery precipitation
Special clouds
Nacreous and Noctilucent clouds occur at high altitudes and may be observed from
comparatively restricted geographical locations. Both may be seen from the British Isles but
usually only in the higher latitudes.
Nacreous clouds
Nacreous clouds are a rare type of stratospheric cloud and were previously termed ‘motherof-pearl’ clouds. These clouds are mainly observed in Scotland and Scandinavia but have
occasionally been reported from Alaska and from France during periods of a strong west to
north-west airstream.
These clouds occur at an altitude between 21 and 30 km and require a temperature
approaching -90°C to form. Such a temperature is only likely to be approached occasionally
during December, January and, less likely, February in the northern hemisphere.
The clouds are somewhat lenticular in form, very delicate in structure, and show brilliant
irisation at angular distances up to about 40° from the sun. Irisation reaches its maximum
brilliance when the sun is several degrees below the horizon. Later, with the sun still further
down, the various colours are replaced by a general coloration which changes from orange
to pink and contrasts vividly with the darkening sky. Still later the clouds become greyish,
then the colours reappear, though with greatly reduced intensity, before they finally fade
out. Up to about two hours after sunset, the nacreous clouds can still be distinguished as
tenuous grey clouds standing out against the starry sky. If there is moonlight, they may be
visible throughout the night. Before dawn, this sequence is repeated in reverse order.
By day, nacreous clouds often resemble cirrus. If, after sunset, cirrus and nacreous clouds
coexist, the nacreous clouds still show bright colours after the cirrus has already turned
grey. Nacreous clouds show little or no movement.
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© P.J.B. Nye
Figure 50. Nacreous Cloud.
Noctilucent clouds
Clouds resembling thin cirrus, but usually with a bluish or silvery colour, or sometimes
orange to red; they stand out against the night sky.
These clouds occur at great heights, about 80 km, and they remain sunlit long after sunset.
They are visible only at night in that part of the sky where they are directly illuminated by
sunlight and when the sky background is dark enough to permit their weak luminescence to
be seen.
Noctilucent clouds have been observed only in latitudes higher than 45°N. The northern
limit is uncertain because of prevailing cloudiness and the lack of observing sites but is
probably at least 80°N. At about latitude 55°N the clouds are seen most frequently in late
June and early July. They are usually observed only in the summer months.
Noctilucent clouds usually appear in the form of thin cirrus-like streaks, sometimes only one
or two isolated filaments being visible while at other times the cloud elements are closely
compacted into an almost continuous mass resembling cirrocumulus or altocumulus.
Noctilucent clouds can usually be distinguished from ordinary clouds by the fact that they
remain brighter than the sky background and glow with a pearly, silvery light, generally
showing tinges of blue colouration.
© M. Clark
Figure 51. Noctilucent Cloud.
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Other clouds
Pyrocumulus
A term sometimes given to the cumulus cloud that forms over an intense source of heat on
the ground, such as a power station or a heath or forest fire. It does not form part of the
official WMO cloud classification and is, in any case, an unhappy mixture of Greek and
Latin.
© J. Bower
Figure 52. Pyrocumulus forming over Didcot Power Station, Oxfordshire.
Orographic clouds
Cloud which is formed by forced uplift of air over high ground. The reduction of pressure
within the rising air mass produces adiabatic cooling and, if the air is sufficiently moist,
condensation. Lenticular wave clouds, including those formed well to leeward of the high
ground, are common orographic clouds; stratus, cumulus and cirrus clouds are also
sometimes orographic in origin.
© J. Bowskill
Figure 53. Orographic cloud, Mount Ruapahu,
New Zealand.
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© M.J.O. Dutton
Figure 54. Orographic cloud, Matterhorn.
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Contrails (condensation trails)
An initially thin trail of water droplets or ice crystals produced by an aircraft engine exhaust
when the humidifying effect of the water vapour exceeds the opposed heating effect of the
exhaust air (exhaust trail). Such trails generally broaden rapidly and evaporate as mixing
with drier air proceeds; when the atmosphere is already moist, however, they may be very
persistent.
© S. Jebson
Figure 55. Contrails.
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Other titles in this series still available:
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Number 2 – Thunderstorms
Number 3 – Water in the atmosphere
Number 4 – Climate of the British Isles
Number 5 – White Christmases
Number 6 – The Beaufort Scale
Number 7 – Climate of Southwest England
Number 8 – The Shipping Forecasts
Number 9 – Weather extremes
Number 10 – Air masses and weather fronts
Number 11 – Interpreting weather charts
Number 12 – National Meteorological Archive
Number 13 – Upper air observations and the tephigram
Number 14 – Microclimates
Number 15 – Weather radar
Number 16 – World climates
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